// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // SeekableBuffer to support backward and forward seeking in a buffer for // reading a media data source. // // In order to support backward and forward seeking, this class buffers data in // both backward and forward directions, the current read position can be reset // to anywhere in the buffered data. // // The amount of data buffered is regulated by two variables at construction, // |backward_capacity| and |forward_capacity|. // // In the case of reading and seeking forward, the current read position // advances and there will be more data in the backward direction. If backward // bytes exceeds |backward_capacity|, the exceeding bytes are evicted and thus // backward_bytes() will always be less than or equal to |backward_capacity|. // The eviction will be caused by Read() and Seek() in the forward direction and // is done internally when the mentioned criteria is fulfilled. // // In the case of appending data to the buffer, there is an advisory limit of // how many bytes can be kept in the forward direction, regulated by // |forward_capacity|. The append operation (by calling Append()) that caused // forward bytes to exceed |forward_capacity| will have a return value that // advises a halt of append operation, further append operations are allowed but // are not advised. Since this class is used as a backend buffer for caching // media files downloaded from network we cannot afford losing data, we can // only advise a halt of further writing to this buffer. // This class is not inherently thread-safe. Concurrent access must be // externally serialized. #ifndef MEDIA_BASE_SEEKABLE_BUFFER_H_ #define MEDIA_BASE_SEEKABLE_BUFFER_H_ #include #include "base/basictypes.h" #include "base/memory/ref_counted.h" #include "base/time/time.h" #include "media/base/media_export.h" namespace media { class DataBuffer; class MEDIA_EXPORT SeekableBuffer { public: // Constructs an instance with |forward_capacity| and |backward_capacity|. // The values are in bytes. SeekableBuffer(int backward_capacity, int forward_capacity); ~SeekableBuffer(); // Clears the buffer queue. void Clear(); // Reads a maximum of |size| bytes into |data| from the current read // position. Returns the number of bytes read. // The current read position will advance by the amount of bytes read. If // reading caused backward_bytes() to exceed backward_capacity(), an eviction // of the backward buffer will be done internally. int Read(uint8* data, int size); // Copies up to |size| bytes from current position to |data|. Returns // number of bytes copied. Doesn't advance current position. Optionally // starts at a |forward_offset| from current position. int Peek(uint8* data, int size) { return Peek(data, size, 0); } int Peek(uint8* data, int size, int forward_offset); // Returns pointer to the current chunk of data that is being consumed. // If there is no data left in the buffer false is returned, otherwise // true is returned and |data| and |size| are updated. The returned // |data| value becomes invalid when Read(), Append() or Seek() // are called. bool GetCurrentChunk(const uint8** data, int* size) const; // Appends |buffer_in| to this buffer. Returns false if forward_bytes() is // greater than or equals to forward_capacity(), true otherwise. The data // is added to the buffer in any case. bool Append(const scoped_refptr& buffer_in); // Appends |size| bytes of |data| to the buffer. Result is the same // as for Append(Buffer*). bool Append(const uint8* data, int size); // Moves the read position by |offset| bytes. If |offset| is positive, the // current read position is moved forward. If negative, the current read // position is moved backward. A zero |offset| value will keep the current // read position stationary. // If |offset| exceeds bytes buffered in either direction, reported by // forward_bytes() when seeking forward and backward_bytes() when seeking // backward, the seek operation will fail and return value will be false. // If the seek operation fails, the current read position will not be updated. // If a forward seeking caused backward_bytes() to exceed backward_capacity(), // this method call will cause an eviction of the backward buffer. bool Seek(int32 offset); // Returns the number of bytes buffered beyond the current read position. int forward_bytes() const { return forward_bytes_; } // Returns the number of bytes buffered that precedes the current read // position. int backward_bytes() const { return backward_bytes_; } // Sets the forward_capacity to |new_forward_capacity| bytes. void set_forward_capacity(int new_forward_capacity) { forward_capacity_ = new_forward_capacity; } // Sets the backward_capacity to |new_backward_capacity| bytes. void set_backward_capacity(int new_backward_capacity) { backward_capacity_ = new_backward_capacity; } // Returns the maximum number of bytes that should be kept in the forward // direction. int forward_capacity() const { return forward_capacity_; } // Returns the maximum number of bytes that should be kept in the backward // direction. int backward_capacity() const { return backward_capacity_; } // Returns the current timestamp, taking into account current offset. The // value calculated based on the timestamp of the current buffer. If // timestamp for the current buffer is set to 0 or the data was added with // Append(const uint*, int), then returns value that corresponds to the // last position in a buffer that had timestamp set. // kNoTimestamp() is returned if no buffers we read from had timestamp set. base::TimeDelta current_time() const { return current_time_; } private: // Definition of the buffer queue. typedef std::list > BufferQueue; // A helper method to evict buffers in the backward direction until backward // bytes is within the backward capacity. void EvictBackwardBuffers(); // An internal method shared by Read() and SeekForward() that actually does // reading. It reads a maximum of |size| bytes into |data|. Returns the number // of bytes read. The current read position will be moved forward by the // number of bytes read. If |data| is NULL, only the current read position // will advance but no data will be copied. int InternalRead( uint8* data, int size, bool advance_position, int forward_offset); // A helper method that moves the current read position forward by |size| // bytes. // If the return value is true, the operation completed successfully. // If the return value is false, |size| is greater than forward_bytes() and // the seek operation failed. The current read position is not updated. bool SeekForward(int size); // A helper method that moves the current read position backward by |size| // bytes. // If the return value is true, the operation completed successfully. // If the return value is false, |size| is greater than backward_bytes() and // the seek operation failed. The current read position is not updated. bool SeekBackward(int size); // Updates |current_time_| with the time that corresponds to the // specified position in the buffer. void UpdateCurrentTime(BufferQueue::iterator buffer, int offset); BufferQueue::iterator current_buffer_; BufferQueue buffers_; int current_buffer_offset_; int backward_capacity_; int backward_bytes_; int forward_capacity_; int forward_bytes_; // Keeps track of the most recent time we've seen in case the |buffers_| is // empty when our owner asks what time it is. base::TimeDelta current_time_; DISALLOW_COPY_AND_ASSIGN(SeekableBuffer); }; } // namespace media #endif // MEDIA_BASE_SEEKABLE_BUFFER_H_